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EPIDEMIOLOGY AND PREVENTION OF INFLUENZA

EPIDEMIOLOGY AND PREVENTION OF INFLUENZA. Introduction. Unique epidemiology: Seasonal attack rates of 10% to 30% Global pandemics Influenza viruses are epizootic in avian animal The influenza continue to cause widespread epidemics (unpredictable antigenic changes).

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EPIDEMIOLOGY AND PREVENTION OF INFLUENZA

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  1. EPIDEMIOLOGY AND PREVENTION OF INFLUENZA

  2. Introduction • Unique epidemiology: • Seasonal attack rates of 10% to 30% • Global pandemics • Influenza viruses are epizootic in • avian • animal • The influenza continue to cause widespread epidemics (unpredictable antigenic changes)

  3. Clinical Features of Influenza • Fever with respiratory symptoms • Myalgia and headache • GI symptoms • Primary influenza viral pneumonia • Secondary bacterial pneumonia

  4. Transmission • Aerosols secretions (coughing, sneezing, and talking) • Direct or indirect • IP 1- 4 days • Infectivity: shortly before the appearance of the symptoms up to the 4th or 5th day of the symptoms

  5. Diagnosis • Viral culture • Serology • Rapid test • PCR

  6. The Virus • First isolated 1933 • Technique of culture in hens’ eggs first described in 1936 • Influenza virus B first isolated in 1940 • Influenza virus C first isolated in 1947

  7. The virus • 3 types (A, B, and C) • A and B contain 8 segments of single-straded RNA • That code for 10 proteins • The most important 2 glycoproteins are HA and NA. Their importance are in the pathogenesis and immune protection.

  8. The Genes of Influenza A Virus and Their Protein Products

  9. The Virus • HA function • It serves as an attachment protein • It also serves as a virulence determinant • NA function • NA cleaves sialic acid residues to allow virus release from the host epithelial cell • The subtypes of influenza A viruts are determined by these two surface antigens

  10. Epidemics and Pandemics • Annual epidemics • Global Pandemics

  11. Characteristic pattern of an influenza pandemic • Starts from a single geographic focus • Rapidly spread along routes of travel • High attack rate of all age groups • Case fatality isn’t increased substanically • Multiple waves

  12. Pandemics and Epidemics • The 1918 Spanish influenza pandemic • AR = 20% - 30% (in adults) and 30% - 45% (in children) • CF 15% - 50% (mostly in young adult) • Annual local epidemics characteristics: • Follow predictable pattern • Usually occur between November and March in the northern hemisphere • High attack rates among schoolchildren • Increased pneumonia and influenza hospital admission • Increased number of deaths from pneumonic and influenza • Usually starts abruptly and reaches the peak within 3wks and ends by the 8th wk • 2 strains may coexist • Usually occur between May and September in the southern hemisphere • Virus survives better in environments of lower temperature and humidity • Rates of infection in infants and children are higher than those of adults • Rates of hospitalization are highest in infants followed by elderly

  13. Factors affecting the size and impact of an influenza epidemics • Degree of the antigenic variation of the new virus • Virus virulence • Existing protective immunity

  14. Epidemics in North America • AR 10%-20% • AR in certain population group ranges between 40%-50% • Influenza associated deaths range between 20,000 and 40,000 annually • Persons aged more than 65 years account for 90% of influenza associated deaths • The cumulative deaths during successive annual epidemics of an interpandemic period often exceed the death in the pandemic period • Example: In the 1968-69 H3N2 pandemic, total deaths estimated to be 34,000, but the virus caused more than 300,000 deaths in the annual epidemics in the subsequent 21 years • Annual influenza has been associated with an average of 226,000 hospitalizations per year in the United States • Most epidemic and all 20th-century pandemic infections by influenza virus are type A

  15. Surveillance of Influanza • Necessary to track epidemic • To detect pandemics • To determine virus serotypes for vaccine policy

  16. Mechanisms of Antigenic Variation • Antigenic drift • Minor antigenic changes • Antigenic shift • Major antigenic changes • Mixing vessel • Pandemic may occur when: • If a shift variant: • Retains the ability to replicate well in humans • Is efficiently transmissible between humans • And has new surface HA or NA determinants that evade existing influenza antibody profiles in the human population • 3 antigenic shifts occurred during the 20th century

  17. Thank you

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